Have you ever found yourself in a situation where you need to create a SharePoint list that contains the names of all the countries of the world ? For me, I have faced this many times especially when developing public facing sites where I need to create forms and I need the form submitters to specify their countries of residence along with other information. The solution was very boring and time consuming, that is why I decided to share with you SPCountries which is a very simple feature that once activated, it creates a SharePoint list containing the names of all the countries of the world. Hope this helps 🙂

When you troubleshoot or test your custom timer job, you will probably want to instantly run the job without waiting for the job to run in schedule.

If you have observed the Timer job definitions in SharePoint central administration, you will find that it gives you the capability to disable the job definition but it doesn’t allow you to execute it.

Figure 1. You cannot force the execution of the jobs through the Central Administration.

Note : For the out of the box timer jobs, you can use the stsadm –o execadmsvcjobs command but this will merely execute the administrative timer jobs but it will not execute the custom ones.

One way to work around this is changing the job schedule, deactivating and activating the feature that installs the timer jobs; this will do the trick by altering the Schedule Property of the job. You can use SharePoint Manager 2007 for monitoring the timer jobs status, schedule and the last run time. It’s very useful and time-saving rather than writing custom code to retrieve those values.

Figure 2. Using SharePoint Manager 2007 to monitor timer jobs.

So the only solution to force custom timer jobs to execute is using SharePoint object model as follows. Below is a code snippet that does the trick

Note : Forcing a timer job to execute out of schedule will neither alter the LastRunTime property of the job nor modify the schedule, so don’t let that fool you.

UPDATE: After I have posted this blog post, I received a notification from Robin Meuré, informing me of a tool that he has recently created and shared with the community on CodePlex, the tool is really nifty! It gives the administrators the ability to delete, disable and immediately run timer jobs from the browser without writing a single line of code. MARVELOUS!

Sometimes, it’s effortless to resolve this error by simply adding <%@Register> directives to reference some assemblies in your page markup, other times you will not be able to figure out what went wrong, it really could be lengthy and tiresome because the exception message never specifies the assembly that is failing to load. Luckily, Microsoft .Net Framework SDK comes with a very handy tool named “Assembly Binding Log Viewer” which can assist you diagnosing this issue.

The “Assembly Binding Log Viewer” keeps track of all assembly binding attempts that happen on your system. Although this tool ships with the .NET Framework, it’s really less known, this blog post will help you to get started with the Assembly Binding Log Viewer and understanding how you can use it to resolve this kind of exceptions.

a. Create a custom page and add the following Register directive at the top of the page :

b. Go to Start >Microsoft Visual Studio 2005/2008 >Visual Studio tools->Visual Studio Command prompt and type fuslogvw. You will get a window similar to the one below.

Figure 2. Assembly Binding Log Viewer Window.

c. Click on the settings menu to bring up the settings for fuslogvw.exe. You have the choice to log all the binds that are happening or you can instruct the tool to only log the failures. It’s also very useful to capture those entries into your file system so that you can refer to them later on.
Note: One strange bug with Fuslogvw.exe is that unless you specify a custom logging directory, the logging won’t work…

Figure 3. fuslogvw.exe Settings dialog box.

d. Run IISRESET from the command prompt.

e. Navigate to your page from your web browser to reproduce the issue.

f. Click the Refresh button in the window.

Figure 4. fuslogvw.exe monitoring all the bind failures.

g. Now you can search for the failures and find out which assembly is causing the page to crash. In our case, the .NET framework wasn’t able to locate the assembly USPJ.BonusIssue at runtime. You can double-click any of the entries in the main window to see exactly how and what the .NET runtime was doing to look for the assemblies your page referenced.

Figure 5. More information about the failure by double clicking the entry.

In many cases, you might want some form of centralized exception handling rather than surrounding every piece of code with Try Catch blocks. You also might want some way to log and handle unhandled exceptions and forward the end user to an error page which has the same look and feel of your site collection rather than the silly error page shipped with SharePoint. In point of fact, there is nothing worse than an error being thrown at the face of the end user and you cannot figure out what caused the problem because the exception is unhandled and it is not revealed anywhere in the log files.

A great way for centralized logging, exception handling and providing a friendly error page is to employ a global exception handler at the application level. This will catch any unhandled exceptions, log them, clear them and redirect the user to a fully branded page. You can also extend your global exception handler to send notification mails to the site collection administrator informing him/her that an unhandled exception has occurred.

The way you can implement global exception handling in regular ASP.NET applications is via the Global.asax file which can enclose code that responds to application-level events. These are events that are raised at specific points during the running of the asp.net application. One of those events is the Application_Error event which fires whenever an unhandled exception occurs in the application; the next code snippet demonstrates the Application_Error event.

Commence the Windows Explorer and navigate to the physical root directory of your SharePoint web application, there you should see the global.asax file. SharePoint automatically adds this file every time you create a new SharePoint web application. If you open this file in Visual Studio, you should see the following:

Figure 1. Global.asax file for SharePoint web applications.

As you see, the global.asax file contains two directives. The @Assembly directive references the Microsoft.SharePoint.dll assembly, which contains the ApplicationRuntime namespace. Note that the Inherits attribute of the @Application directive instructs ASP.NET to use SPHttpApplication as the base class for the class that it dynamically creates and instantiates. Let’s use the .NET Reflector to investigate this class; the next figure demonstrates this in action. If you don’t know what .NET Reflector is, refer to the “Troubleshooting Toolbox” section at the end of the issue.

Figure 2. Using .NET Reflector to investigate SharePoint Global.asax.

As you might have concluded, you cannot trap unhandled exceptions through Global.asax; this place has been taken by the product itself. Alternatively, you need to hook into the ASP.NET HTTP pipeline by creating an HTTP Module. The next figure shows a sample HTTP Module that you can start with to create your own global exception handler.